The Caenorhabditis elegans Dosage Compensation Machinery Is Recruited to X Chromosome DNA Attached to an Autosome

The Caenorhabditis elegans Dosage Compensation Machinery Is Recruited to X Chromosome DNA Attached to an Autosome

Jason D. Lieb^a, Carlos Ortiz de Solorzano^b, Enrique Garcia Rodriguez^b, Arthur Jones^b, Michael Angelo^c, Stephen Lockett^b, and Barbara J. Meyer^a
^a Howard Hughes Medical Institute and University of California, Berkeley, California 94720-3204,
^b Lawrence Berkeley National Laboratory, Berkeley, California 94720
^c Whitehead Institute and Massachusetts Institute of Technology, Cambridge, Massachusetts 02139-1561

Corresponding author: Barbara J. Meyer, HHMI and Department of Molecular and Cell Biology, 401 Barker Hall #3204, University of California, Berkeley, CA 94720-3204., bjmeyer{at}uclink4.berkeley.edu (E-mail)

Communicating editor: R. K. HERMAN

The dosage compensation machinery of Caenorhabditis elegansis targeted specifically to the X chromosomes of hermaphrodites(XX) to reduce gene expression by half. Many of the trans-actingfactors that direct the dosage compensation machinery to X havebeen identified, but none of the proposed cis-acting X chromosome-recognitionelements needed to recruit dosage compensation components havebeen found. To study X chromosome recognition, we explored whetherportions of an X chromosome attached to an autosome are competentto bind the C. elegans dosage compensation complex (DCC). Todo so, we devised a three-dimensional in situ approach thatallowed us to compare the volume, position, and number of chromosomaland subchromosomal bodies bound by the dosage compensation machineryin wild-type XX nuclei and XX nuclei carrying an X duplication.The dosage compensation complex was found to associate witha duplication of the right 30% of X, but the complex did notspread onto adjacent autosomal sequences. This result indicatesthat all the information required to specify X chromosome identityresides on the duplication and that the dosage compensationmachinery can localize to a site distinct from the full-lengthhermaphrodite X chromosome. In contrast, smaller duplicationsof other regions of X appeared to not support localization ofthe DCC. In a separate effort to identify cis-acting X recognitionelements, we used a computational approach to analyze genomicDNA sequences for the presence of short motifs that were abundantand overrepresented on X relative to autosomes. Fourteen familiesof X-enriched motifs were discovered and mapped onto the X chromosome.

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